Scratch allows you to create interactive stories, games, music and art using drag-and-drop programming. It is an excellent way to introduce basic programming concepts, such as variables and loops. But, it is also quite powerful, as it supports bi-directional communication to such things as Lego Mindstorms, and more generally, using TCP/IP. I decided to see what sort of data visualisation I could achieve with a few spare minutes and a bit of python code.
The first attempt ended up as a sort of "meme cloud". Here, you send Scratch an alert level and a message, and it will display a meme based on the level, with the message in a speech bubble.The levels are:
The most recent alert is shown with no transparency and with the speech bubble. As the alerts get older, they become increasingly transparent. Positions of the memes are random. It currently only supports 10 sprites, which means it will show up to 10 memes at any one time.
Here is a section of the code for one of the sprites:
The problem with this approach is that Scratch doesn't allow you to dynamically create sprites, which sort of limits the functionality for certain things. However, there is an alternative. A sprite has, amongst all sorts of things, a pen. This pen can have colour, thickness, shade etc. Moving the sprite while the pen is "down" basically just draws on the screen. So, although we can't dynamically create sprites, we can draw all sorts of things programmatically. This takes us to attempt number two.
The plan here was to draw some sort of time chart or graph. A python script sends Scratch a pen size and colour for every event, and Scratch draws this. As it receives events, the pen moves to the right to create a sort of time chart. If the pen gets to the end of a line, it drops down to a new line. If it gets to the bottom of the screen, it goes back to the starting position in to top left corner. This means you can see the details of a relatively large number of events on a single screen, in order of time.
The example video below just uses random colours and pen sizes, so you won't be able to see any patterns. However, with real data you should be able to see correlations such as spikes in the number of errors, or outages etc. Also, the time between events in the video is fixed, so it looks a little boring. The white square shows the current position.
Not bad for a bit of dragging-and-dropping, and some python. I'll leave it as an exercise for the reader to integrate it into something like Splunk or Nagios :)
You can download the meme cloud python here, and the meme cloud scratch file here. The line viz python can be downloaded here, the scratch file here.